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The compressibility of soil under constant stress ratios羅文雄, Law, Man-hung. January 1972 (has links)
published_or_final_version / Civil Engineering / Master / Master of Philosophy
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Scale and stress effects on the behavior of ferromagnetic materialsHu, Ruilong., 胡瑞龍. January 2007 (has links)
published_or_final_version / abstract / Mechanical Engineering / Doctoral / Doctor of Philosophy
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A study of the stress and strain relationships in heterogeneous soils陸宏廣, Luk, Wang-kwong. January 1968 (has links)
published_or_final_version / Civil Engineering / Master / Master of Science in Engineering
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Complete stress-strain behavior for shear failure of rocksZhou, Guolin, 周國林 January 1999 (has links)
published_or_final_version / Civil Engineering / Doctoral / Doctor of Philosophy
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Analysis of indeterminate frames by method of influence moments.Chen, Loh-kwan, 陳六琯 January 1963 (has links)
published_or_final_version / Civil Engineering / Doctoral / Doctor of Philosophy
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Constitutive modeling and plastic analysis with application to beam-to-column connections.Islam, Mohammad Aminul. January 1988 (has links)
Analysis and design of connections, such as beam-to-column connections, pose various complexities such as nonlinear behavior of material and geometric condition, irregularities in geometry and boundary condition. The main purpose of these types of connections is to provide adequate structural strength and a sufficiently stiff structure at working loads, and to possess sufficient ductility and strength at overloads such as may occur during a major earthquake. At present the design profession does not have established guidelines for estimating the ultimate moment and shear capacity of these connections. The assumption of linear elastic material behavior of the connections is no longer valid when the elements are stressed beyond the yield stress of the material. For such problems encountered in the design of typical structures, either the closed-form analytical solutions are extremely complex or cannot be obtained at all. Thus, numerical techniques such as finite difference, finite element and boundary integral methods are used. In this study, a finite element program is developed for plastic analysis of connections such as beam-to-column connection using a constitutive law of the material, a three parameter stress-strain relationship, which gives stress explicitly in terms of strain. One hundred and fifteen cases of beam-to-column connections subjected to moment are analysed with the finite element program developed in this study, and the results are compared with the existing approximate solution by yield line theory to propose a simple formula to correlate actual ultimate capacity to the approximate solution.
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ROCKBOLT ANALYSIS FOR REINFORCEMENT AND DESIGN IN LAYERED ROCK (COMPOSITE).JEFFREY, ROBERT GRAHAM, JR. January 1985 (has links)
The displacements and stresses in layered rock above underground openings can be calculated using a beam model for the rock layers. The traditional approach assumes that interfaces between layers are frictionless and layers can slip past one another freely as they deflect. In contrast, the design of structural laminated beams has traditionally been based on the assumption that the interfaces between layers were welded, with no slip occurring there. In this work, the theory of composite laminated beams, which allows for partial slip on layer interfaces, is applied to the problem of predicting displacements and stresses in layered roof rock. The effects of rockbolt reinforcement are modeled by discrete shear and normal stiffnesses incorporated at locations in the model where the rockbolts cross layer interfaces. Published solutions and results for laminated composite beams are reviewed. Composite laminated beam theory provided a means of accounting for rockbolt reinforcement effects and provided a conceptual framework that was used to develop two FORTRAN programs; one, based on the force method of analysis, that automatically finds shear and tensile interface failures in the system, and the other a finite element program that employs beam elements, elastic interface elements, and rockbolt elements to model a rockbolted layered rock system. Published data together with results from these programs suggest that shear reinforcement may be more effective when placed near the ends of roof layers. The normal interaction between layers tends to be uniformly distributed unless rockbolt forces act on the layers or if partial delamination of layers has occurred. Both shear and normal reinforcement will cause stresses to be redistributed within the system of layers. Analysis of this redistribution of stresses requires that the sequence of interface failure be predicted which, in turn, requires that the properties of the individual layers, of the interfaces between layers, and of the rockbolts be properly taken into account. Laminated composite beam theory and programs based on this theory provide rational and efficient ways to study and analyze the behavior of layered roof rock.
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MOMENT-ROTATION CHARACTERISTICS OF BEAM-TO-COLUMN CONNECTIONS.Leong, Mun-Foo. January 1985 (has links)
No description available.
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Simplified and approximate solution for gridworks with fixed edgesLee, Chung-Yih January 2010 (has links)
Digitized by Kansas Correctional Industries
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Finite element method analysis of wide-flange beam with reinforced openingLiou, Farn Shinn January 2010 (has links)
Digitized by Kansas Correctional Industries
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